CN204558658U - Conductive fixture, accumulator connector and portable power source - Google Patents

Abstract

This application discloses a kind of conductive fixture, accumulator connector and portable power source.In some respects, conductive fixture comprises the first holder and the second holder that are oppositely arranged, wherein said first holder and described second holder have the clamping part for clamping held object respectively, and described first holder has the conductive contact blade be positioned at inside its clamping part, and described second holder does not have conductive contact blade inside its clamping part.In other, the surface of conductive contact blade is curved surface.In other, at least one in first holder of conductive fixture and the second holder has and is positioned at conductive contact blade inside its clamping part and fuse-link, this fuse-link is electrically connected with conductive contact blade, and held object can by fuse-link and conductive contact blade conduction current.The processing of the conductive fixture of the application is more simple, thus reduces manufacturing cost.

Description

Conductive fixture, accumulator connector and portable power source

Technical field

The application relates to electronic technology field, more specifically, relates to a kind of conductive fixture, accumulator connector and portable power source.

Background technology

Automobile storage battery is for the device of the various power electronic equipment on automobile.Automobile storage battery is also used to the engine starting automobile.Typically, after the engine started, namely engine can charge to automobile storage battery, to ensure that automobile storage battery has enough electricity.But because some reason, such as aging, damage or over-discharge can, automobile storage battery may not have enough electricity for the use of automobile starting.In order to address this is that, some emergent automobile power source products are used to provide emergency starting when automobile storage battery cannot start automobile.Such as, accumulator connector (being also called Entada phaseoloides) may be used for a normal storage battery and improper storage battery to be electrically connected to each other, and provides startup electricity with the engine utilizing normal electrical bottle corresponding to improper storage battery.Again such as, some portable power source products with built-in power also can provide similar emergency starting.

Existing accumulator connector or portable power source are connected to the electrode of storage battery by battery clamp.Fig. 1 shows a kind of existing storage battery fixture 10.As shown in Figure 1, this storage battery fixture 10 has two clamping parts 11 of gripping objects, and wherein, the inner side of these two clamping parts 11 is provided with the conductive metal sheet of hackly surface.But the conductive metal sheet complex structure that this two sides is arranged, is adding the step of man-hour requirement two single metal sheet assembling.In addition, the region area that hackly surface can contact object is less, thus contact resistance is increased.

Storage battery fixture shown in Fig. 1 is connected in the arrangements of electric connection 20 shown in Fig. 2 usually.As shown in Figure 2, arrangements of electric connection 20 has two conductive lead wires 21 and 22, and wherein one end of every root conductive lead wire is provided with conductive fixture 23 or 24.In addition, in order to avoid causing safety problem because electric current is excessive, the middle part of every root conductive lead wire is also provided with fuse 25 or 26.But this fuse set-up mode requires that conductive lead wire 21 and 22 must be formed by connecting by two wires, which increases complexity and the cost of processing.

Therefore, need to provide the simple conductive fixture of a kind of structure with at least one in solving the problem.

Utility model content

At least one object of the application is to provide structure simple conductive fixture.

In of the application, provide a kind of conductive fixture.This conductive fixture comprises the first holder and the second holder that are oppositely arranged, wherein said first holder and described second holder have the clamping part for clamping held object respectively, and described first holder has the conductive contact blade be positioned at inside its clamping part, and described second holder does not have conductive contact blade inside its clamping part.

The conductive contact blade of above-mentioned conductive fixture side can be electrically connected with conductive lead wire, and like this when with its gripping objects, held object can be drawn with power supply by its side conductive contact blade, and is connected to such as power supply or other electronic equipments via conductive lead wire.Compared with the existing two-sided fixture all arranging conductive contact blade, the conductive fixture structure of the application is more simple, decreases the use of electric conducting material, also reduces the operation of once assembling simultaneously.Therefore, the conductive fixture of the application has lower manufacturing cost.

In certain embodiments, described conductive contact blade is sheet metal.

In certain embodiments, the surface of described conductive contact blade is curved surface or serrated face.

In certain embodiments, described first holder also has the fuse-link be positioned at inside it, and it is electrically connected with described conductive contact blade, and described held object can pass through described fuse-link and described conductive contact blade conduction current.

In certain embodiments, described fuse-link and described conductive contact blade form.

In certain embodiments, the resistance per unit length value of described fuse-link is greater than the resistance per unit length value of described conductive contact blade.

In certain embodiments, the resistance per unit length value of described fuse-link is 3 times or higher of the resistance per unit length value of described conductive contact blade.

In certain embodiments, described fuse-link and described conductive contact blade form, and the cross-sectional area of described fuse-link is less than the cross-sectional area of described conductive contact blade.

In certain embodiments, the cross-sectional area of described fuse-link is less than 1/3 of the cross-sectional area of described conductive contact blade.

In certain embodiments, described fuse-link has shape that is bending or straight line.

In certain embodiments, described first holder has the shank adjacent with described clamping part, and described fuse-link extends to described shank from described clamping part.

In certain embodiments, described conductive contact blade is made up of one of following material: aluminium flake, copper sheet, electroplate or copper-plated iron plate or stainless steel substrates.

The application another in, additionally provide a kind of conductive fixture.This conductive fixture comprises the first holder and the second holder that are oppositely arranged, wherein said first holder and described second holder have the clamping part for clamping gripped object respectively, and at least one in described first holder and described second holder has the conductive contact blade be positioned at inside its clamping part, wherein, the surface of described conductive contact blade is curved surface.

Can find out, because the surface of conductive contact blade contacting gripped object is curved surface, therefore conductive contact blade can and gripped object between there is larger contact area, this can reduce the contact resistance between conductive fixture and gripped object.Compared to the conductive fixture of existing employing serrated face structure, lower contact resistance makes the conductive fixture of the application can flow through larger electric current, and the loss that electric current produces on conductive fixture also can reduce with heating.

In certain embodiments, described conductive contact blade is sheet metal.

In certain embodiments, described conductive contact blade is made up of one of following material: aluminium flake, copper sheet, electroplate or copper-plated iron plate or stainless steel substrates.

In certain embodiments, described first holder and/or described second holder also have the fuse-link be positioned at inside it, and it is electrically connected with described conductive contact blade, and described held object can pass through described fuse-link and described conductive contact blade conduction current.

In certain embodiments, described fuse-link and described conductive contact blade form.

In certain embodiments, described fuse-link has shape that is bending or straight line.

In certain embodiments, described first holder and described second holder have the shank adjacent with described clamping part, and described fuse-link extends to described shank from described clamping part.

The application another in, additionally provide a kind of conductive fixture.This conductive fixture comprises the first holder and the second holder that are oppositely arranged, wherein said first holder and described second holder have the clamping part for clamping held object respectively, and at least one in described first holder and described second holder has and is positioned at conductive contact blade inside its clamping part and fuse-link, described fuse-link is electrically connected with described conductive contact blade, and described held object can pass through described fuse-link and described conductive contact blade conduction current.

Because fuse-link is arranged on conductive fixture, therefore do not need to arrange fuse-link in addition on the conductive lead wire be connected with this conductive fixture, thus the structure of conductive lead wire is more simple.Such as, conductive lead wire can adopt the electric wire of whole piece, instead of needs as prior art with two metal line (two the centre of electric wire will arrange fuse-link).

In certain embodiments, described fuse-link and described conductive contact blade form.

In certain embodiments, the resistance per unit length value of described fuse-link is greater than the resistance per unit length value of described conductive contact blade.

In certain embodiments, the resistance per unit length value of described fuse-link is 3 times or higher of the resistance per unit length value of described conductive contact blade.

In certain embodiments, described fuse-link and described conductive contact blade form, and the cross-sectional area of described fuse-link is less than the cross-sectional area of described conductive contact blade.

In certain embodiments, the cross-sectional area of described fuse-link is less than 1/3 of the cross-sectional area of described conductive contact blade.

In certain embodiments, described fuse-link has shape that is bending or straight line.

In certain embodiments, described first holder and described second holder have the shank adjacent with described clamping part, and described fuse-link extends to described shank from described clamping part.

In certain embodiments, described conductive contact blade is made up of one of following material: aluminium flake, copper sheet, electroplate or copper-plated iron plate or stainless steel substrates.

The application other in, additionally provide a kind of accumulator connector, it comprise pair of conductive lead-in wire, wherein each conductive lead wire has two ends respectively, and at least one end in these ends comprises the conductive fixture described in aforementioned aspect.

The application other in, additionally provide a kind of portable power source, it comprises battery pack and goes between with the pair of conductive of described battery pack electric coupling, and wherein, each conductive lead wire to be provided with for the one end connecting exterior object according to the conductive fixture described in aforementioned at it.

Be more than the general introduction of the application, the situation of simplification, summary and omissions of detail may be had, therefore those skilled in the art will appreciate that this part is only Illustrative, and be not intended to limit the application's scope by any way.This overview section is the key feature of not intended to be determination claimed subject or essential feature both, and also not intended to be is used as the supplementary means of the scope determining claimed subject.

Accompanying drawing explanation

Be combined with accompanying drawing by following description and appending claims, the above and other feature understanding teachings herein will be known more fully.Be appreciated that these drawings depict only some execution modes of teachings herein, therefore should do not think the restriction to teachings herein scope.By adopting accompanying drawing, teachings herein will obtain definitely and explain.

Fig. 1 shows a kind of existing storage battery fixture;

Fig. 2 shows a kind of existing arrangements of electric connection;

Fig. 3 shows the side schematic view of the conductive fixture 100 according to the application's embodiment;

Fig. 4 shows the internal structure schematic diagram of the conductive fixture 100 shown in Fig. 3;

Fig. 5 shows the decomposing schematic representation of the conductive fixture 100 shown in Fig. 3;

Fig. 6 shows the schematic diagram of the arrangements of electric connection with the conductive fixture 100 shown in Fig. 3.

Embodiment

In the following detailed description, with reference to the accompanying drawing forming its part.In the accompanying drawings, the part that similar symbol ordinary representation is similar, unless otherwise indicated by context.The illustrative embodiments described in embodiment, accompanying drawing and claims not intended to be limit.When not departing from the spirit or scope of theme of the application, other execution modes can be adopted, and other changes can be made.Be appreciated that and can carry out multiple differently composed configuration, replacement, combination, design to the various aspects of general teachings herein that describe, graphic extension in the accompanying drawings herein, and all these forms a part for teachings herein clearly.

Fig. 3 to Fig. 5 shows the conductive fixture 100 according to the application's embodiment.Wherein, Fig. 3 is the side schematic view of this conductive fixture 100; Fig. 4 is the internal structure schematic diagram of this conductive fixture 100; Fig. 5 is the decomposing schematic representation of this conductive fixture 100.In actual applications, this conductive fixture 100 can be used in accumulator connector or portable power source (the emergency starting power supply of such as motor car engine), for clamping the electrode of storage battery.

As shown in Figures 3 to 5, conductive fixture 100 comprises the first holder 101 and the second holder 103 be oppositely arranged.These two holders have the clamping part 105 and 107 for clamping held object respectively, and for the shank 111 and 113 for user's pressing operation.

First holder 101 and the second holder 103 can be interconnected in the middle, such as, be interconnected by pivot 115.In addition, conductive fixture 100 can also comprise a force application element, such as spring (not shown).This force application element is arranged between the first holder 101 and the second holder 103, for providing enough chucking powers, to ensure that held object can be stably clamped between clamping part 105 and 107 when clamping part 105 and 107 gripping objects.

First holder 101 has conductive contact blade 109 inside its clamping part 105, and it is such as sheet metal.This conductive contact blade 109 can be electrically connected to the conductive lead wire (not shown) outside conductive fixture 100, thus the object clamped by conductive fixture 100 can be powered.Conductive contact blade 109 can be made up of the material with better conductivity and mechanical strength usually, such as aluminium flake, copper sheet, electroplate or copper-plated iron plate or stainless steel substrates.

In the embodiment shown in Fig. 3-5, the second holder 103 does not have conductive contact blade inside its clamping part 107.In other words, when gripping objects, the main body of the second holder 103 directly contacts held object.In certain embodiments, the main body of the second holder 103 and the first holder 101 can be made up of such as plastics or other insulating material, and this can ensure the insulating properties between held object and user.

In certain embodiments, the surface of conductive contact blade 109 is serrated faces.Serrated face surface can strengthen the frictional force between conductive contact blade 109 and held object, thus the risk that minimizing gripped object comes off.In further embodiments, the surface of conductive contact blade 109 can be curved surface, such as, be a part for the face of cylinder, ellipsoid, parabola, hyperboloid or other similar curved.Due to held object such as storage battery electrode usually in cylindric, therefore curved surface conductive contact blade 109 can and held object between there is larger contact area, this can reduce the contact resistance between conductive fixture 100 and held object.Lower contact resistance makes conductive fixture 100 can bear larger electric current, and the loss that electric current produces on conductive fixture 100 is also less with heating.In addition, compared to serrated face surface, the conductive contact blade 109 of curved surface is not easy to wear, thus has longer useful life.

With reference to figure 4 and Fig. 5, it illustrates the internal structure of conductive fixture 100.In the embodiment shown in fig. 4, the first holder 101 also has the fuse-link 117 be positioned at inside it, and this fuse-link 117 is electrically connected with conductive contact blade 109.Particularly, fuse-link 117 is arranged between conductive contact blade 109 and conductive lead wire, and can be fixed on the first holder 101.Via conductive contact blade 109 and fuse-link 117, held object can be powered from conductive fixture 100.Fuse-link 117 is also called fuse, and it is a kind of temperature-sensitive protection component.When flowing through the electric current on conductive contact blade 109, fuse-link 117 and conductive lead wire and being too high; fuse-link 117 can fuse because of sending out high temperature thermogenetic; thus held object and conductive lead wire are disconnected, with the electronic equipment protecting held object or conductive lead wire opposite side to connect.In general, when overcurrent occurs, the temperature of fuse-link 117 should higher than the temperature of conductive contact blade 109, to ensure that it fuses prior to conductive contact blade 109.

In certain embodiments, the resistance per unit length value of fuse-link 117 is greater than the resistance per unit length value of conductive contact blade 109.Such as, the resistance per unit length value of fuse-link 117 is 3 times or higher of the resistance per unit length value of conductive contact blade 109.In certain embodiments, the resistance per unit length value of fuse-link 117 is 3 to 5 times of the resistance per unit length value of conductive contact blade 109, this can make fuse-link 117 have good current limiting performance, can not produce too high voltage loss when electric current is less on conductive fixture 100 simultaneously.

In certain embodiments, conductive contact blade 109 can form with fuse-link 117, such as, shaped by metal forming and cutting process.Such as, conductive contact blade 109 and fuse-link 117 can be made up of copper sheet, aluminium flake, copper coating or silver-plated iron plate or stainless steel substrates.For the conductive contact blade 109 be integrally formed and fuse-link 117, only need to control the resistance value ratio that the cross-sectional area of fuse-link 117 and the cross-sectional area of conductive contact blade 109 can control between both.In certain embodiments, the cross-sectional area of fuse-link 117 is less than the cross-sectional area of conductive contact blade 109, such as, be less than 1/3 of the cross-sectional area of conductive contact blade 109.In some instances, conductive contact blade 109 and fuse-link 117 can be integrally made up of iron plate or stainless steel substrates, but on the surface of conductive contact blade 109, be only coated with the higher metal of copper, silver or other conductivity.Such as, only conductive contact blade 109 can be immersed in electroplate liquid when electro-coppering or silver, and fuse-link 117 is suspended above above electroplate liquid.This structure can, while guarantee conductive contact blade 109 electric conductivity, make fuse-link 117 have suitable resistance per unit length value.

In certain embodiments, fuse-link 117 extends to shank 111 from the clamping part 105 of the first holder 101.Fuse-link 117 can have shape that is bending or straight line.Preferably, fuse-link 117 can have bending shape, and this is conducive to fuse-link 117 and the installation of metal contact piece 109 on the first holder 101, can allow certain mismachining tolerance.It should be noted that, the shape of fuse-link 117 refers to the shape of its main part, does not comprise fuse-link 117 end adjacent with metal contact piece 109 and relative the other end.

Although be only provided with conductive contact blade 109 and fuse-link 117 on the first holder 101 in the embodiment shown in Fig. 3 to Fig. 5, but in other examples, conductive fixture also can arrange conductive contact blade inside the clamping part 107 of the second holder 103, or again fuse-link is set extraly, such as, on the electric wire adjacent with conductive fixture.Wherein, conductive contact blade can have the surface of curved surface or serrated face.

Fig. 6 shows the schematic diagram of the arrangements of electric connection 200 with the conductive fixture 100 shown in Fig. 3 to 5.This arrangements of electric connection 200 such as connecting the battery pack of portable power source and load to be powered, such as, needs power supply or the engine of charging.

As shown in Figure 6, this arrangements of electric connection 200 comprises pair of conductive lead-in wire 201 and 203, and this is connected to battery pack (not shown) to one end of conductive lead wire by an inserted terminals 205, and the other end then comprises two conductive fixtures 207 and 209.Wherein, the inside of conductive fixture 207 does not arrange fuse-link, and thus it is provided with fuse-link 211 at the middle part of conductive lead wire 201.On the contrary, the inside of conductive fixture 209 is provided with fuse-link (not shown), and thus conductive lead wire 203 is complete whole piece electric wires.Be appreciated that in other examples, in the inside of conductive fixture 207 and conductive fixture 209, all fuse-link can be set, thus just no longer need to arrange fuse-link in the middle part of conductive lead wire.

In certain embodiments, this application provides a kind of portable power source, it can comprise battery pack and arrangements of electric connection as shown in Figure 6.Each conductive lead wire of this arrangements of electric connection is provided with the conductive fixture of the application's previous embodiment at it for the one end connecting exterior object.

In further embodiments, present invention also provides a kind of accumulator connector, it comprises pair of conductive lead-in wire, and wherein, each conductive lead wire has two ends respectively, and at least one end wherein in these ends comprises the conductive fixture of the application's previous embodiment.

Those skilled in the art can pass through research specification, disclosed content and accompanying drawing and appending claims, understand and implement other changes to the execution mode disclosed.In the claims, word " comprises " element and step of not getting rid of other, and wording " one ", " one " do not get rid of plural number.In the practical application of invention, part can enforcement of rights require in the function of multiple technical characteristics quoted.Any Reference numeral in claim should not be construed as the restriction to scope.

Claims (30)

1. a conductive fixture, it is characterized in that, described conductive fixture comprises the first holder and the second holder that are oppositely arranged, wherein said first holder and described second holder have the clamping part for clamping held object respectively, and described first holder has the conductive contact blade be positioned at inside its clamping part, and described second holder does not have conductive contact blade inside its clamping part.

2. conductive fixture according to claim 1, is characterized in that, described conductive contact blade is sheet metal.

3. conductive fixture according to claim 1, is characterized in that, the surface of described conductive contact blade is curved surface or serrated face.

4. conductive fixture according to claim 1, is characterized in that, described first holder also has the fuse-link be positioned at inside it, and it is electrically connected with described conductive contact blade, and described held object can pass through described fuse-link and described conductive contact blade conduction current.

5. conductive fixture according to claim 4, is characterized in that, described fuse-link and described conductive contact blade form.

6. conductive fixture according to claim 4, is characterized in that, the resistance per unit length value of described fuse-link is greater than the resistance per unit length value of described conductive contact blade.

7. conductive fixture according to claim 6, is characterized in that, the resistance per unit length value of described fuse-link is 3 times or higher of the resistance per unit length value of described conductive contact blade.

8. conductive fixture according to claim 4, is characterized in that, described fuse-link and described conductive contact blade form, and the cross-sectional area of described fuse-link is less than the cross-sectional area of described conductive contact blade.

9. conductive fixture according to claim 8, is characterized in that, the cross-sectional area of described fuse-link is less than 1/3 of the cross-sectional area of described conductive contact blade.

10. conductive fixture according to claim 4, is characterized in that, described fuse-link has shape that is bending or straight line.

11. conductive fixtures according to claim 4, is characterized in that, described first holder has the shank adjacent with described clamping part, and described fuse-link extends to described shank from described clamping part.

12. conductive fixtures according to claim 1, is characterized in that, described conductive contact blade is made up of one of following material: aluminium flake, copper sheet, electroplate or copper-plated iron plate or stainless steel substrates.

13. 1 kinds of conductive fixtures, it is characterized in that, described conductive fixture comprises the first holder and the second holder that are oppositely arranged, wherein said first holder and described second holder have the clamping part for clamping gripped object respectively, and at least one in described first holder and described second holder has the conductive contact blade be positioned at inside its clamping part, wherein, the surface of described conductive contact blade is curved surface.

14. conductive fixtures according to claim 13, is characterized in that, described conductive contact blade is sheet metal.

15. conductive fixtures according to claim 14, is characterized in that, described conductive contact blade is made up of one of following material: aluminium flake, copper sheet, electroplate or copper-plated iron plate or stainless steel substrates.

16. conductive fixtures according to claim 15, it is characterized in that, described first holder and/or described second holder also have the fuse-link be positioned at inside it, it is electrically connected with described conductive contact blade, and described held object can pass through described fuse-link and described conductive contact blade conduction current.

17. conductive fixtures according to claim 16, is characterized in that, described fuse-link and described conductive contact blade form.

18. conductive fixtures according to claim 16, is characterized in that, described fuse-link has shape that is bending or straight line.

19. conductive fixtures according to claim 16, is characterized in that, described first holder and described second holder have the shank adjacent with described clamping part, and described fuse-link extends to described shank from described clamping part.

20. 1 kinds of conductive fixtures, it is characterized in that, described conductive fixture comprises the first holder and the second holder that are oppositely arranged, wherein said first holder and described second holder have the clamping part for clamping held object respectively, and at least one in described first holder and described second holder has and is positioned at conductive contact blade inside its clamping part and fuse-link, described fuse-link is electrically connected with described conductive contact blade, and described held object can pass through described fuse-link and described conductive contact blade conduction current.

21. conductive fixtures according to claim 20, is characterized in that, described fuse-link and described conductive contact blade form.

22. conductive fixtures according to claim 20, is characterized in that, the resistance per unit length value of described fuse-link is greater than the resistance per unit length value of described conductive contact blade.

23. conductive fixtures according to claim 22, is characterized in that, the resistance per unit length value of described fuse-link is 3 times or higher of the resistance per unit length value of described conductive contact blade.

24. conductive fixtures according to claim 20, is characterized in that, described fuse-link and described conductive contact blade form, and the cross-sectional area of described fuse-link is less than the cross-sectional area of described conductive contact blade.

25. conductive fixtures according to claim 24, is characterized in that, the cross-sectional area of described fuse-link is less than 1/3 of the cross-sectional area of described conductive contact blade.

26. conductive fixtures according to claim 20, is characterized in that, described fuse-link has shape that is bending or straight line.

27. conductive fixtures according to claim 20, is characterized in that, described first holder and described second holder have the shank adjacent with described clamping part, and described fuse-link extends to described shank from described clamping part.

28. conductive fixtures according to claim 20, is characterized in that, described conductive contact blade is made up of one of following material: aluminium flake, copper sheet, electroplate or copper-plated iron plate or stainless steel substrates.

29. 1 kinds of accumulator connectors, is characterized in that, comprise pair of conductive lead-in wire, wherein each conductive lead wire has two ends respectively, and at least one end in these ends comprises the conductive fixture any one of aforementioned claim described in claim.

30. 1 kinds of portable power sources, it is characterized in that, comprise battery pack and go between with the pair of conductive of described battery pack electric coupling, wherein, each conductive lead wire is provided with the conductive fixture any one of aforementioned claim described in claim at it for the one end connecting exterior object.